SCIENTIFIC ABSTRACT BAKAYEV, A.A. - BAKAYEV, M.T.
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S
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50
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December 31, 1967
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BAKAMVj-4r.4c.-4Bakaiev, 0.0.]; BRANOVITSKAYA, S.V. [Branovytn'Ica,
S.V.];
WXHALEVICHY V.S. [Mikhalevych, V.S.]; SHOR, N.Z.
Determining the characteristics of a transportation system'by
the m9thod of successive analysis of variants. Dop. AN UJRSR
no-0469-472 162. (NIRA 15:5)
1. VychislitelInyy tsentr AN USSR, Predstavleno akademikom
AN USSR V.M.Glushkovyin [Hlushkov, V.M.1-
(Automation) (Electronic digital computers)
BAKAYEV. A.
Electronic machines work out the schedules of freight
traffic. Sov,
torg. 35 no-1:15-16 Ja '62. (MIRA 15:1)
l.Glavnyy inzh. Adela ekonomicheskoy kibernetiki
Vycbislitellnogo
tsentra AN SSSR, g.Kiyev.
(Ukraine--Sugar--Transportation) (Electronic
calculating machines)
BALON, I.D., kand.tekhn.nauk; ROMANENKO, N.T, inzh.; YUPKO. L.D..
inzh.;
BOLKUNOV, Ye.P., inzh.; TULUYEVSKAYA, T.A. inzh.; .ASBTtROV P.I.
inzh.;
VOLDVIK, A.V., inzh. Prinimali uchastiye:.BAKAYEV,-A.-'.k.;
VOKHNIK, A.R.;
KOLOS, V.D.; KAYSTRO N.P.;Jdeceased]; LITVINENKO, V.I.;
MAKARCHENKO, N.M.;
ONOPRIYENKO,, V.P.; PALAGUTA, V.P.; PIKA, V.S.; RAGIN, B.I.;
ROXANCHENKO,
Ye.I.; SAYENKO, S,D.; STOLYAR,-V.V.; SKORIK, N.M.; TOROPENKOP P&D.
Characteristics of making ferromanganese in large capacity blast
furnaces
and the effect of slag conditions on basic technical and economic
indices.
Stall 23 no.12-.1069-1073 D 1639 (MIRA 17:2)
1. Ukrainskiy nauchno-issledovatel'skiy institut metallov i zavod
"Zapo-
rozhstall".
PETROV, Ye.I.; NOVOSELOV, V.A.; Prinimali uchastiye: CHVANOVP P.A.;
SHIROICOVP L.F.; KOROBKOV, V.P.; KULAYEV, P.A.; POPYOVA, L.F.;
LLBEDEVP I.M.;-BAKAYEV, A.M.
Flotation of Sibay deposit zinc ores. TSvet. met. 35 no.3:
15-18 Mr 162. (MIRA 15:4)
(Flotation) (Sibay region-Zinc ores)
i on su n;z -
tp b 1 fny%tl 'T
a L i 1) T w h 9 q
il nyuragen wna nnM-qCted 'A-ld th e C r~ L a w P r Fz
a 3 c d e d e n s i, y t o ana t-
Card
1 29966
ammoniun-potaesium paratungstate), a'-so vas uncha-n6ed by reduction,
but droTned by 50 and 63-4,1~% in inv- a7., WP, 7,
-jr r-, v, r e I u c L in9,n~ert r. ;2 ur-.~,~ i.ne
e z, e 7,ianiz T- e;
licr i
e: 7'
i~ i a i nwnicn re-zoves abouA ior.6 rsa~v av ef-
-,'by re uctf
o n f t a e er- a'a` e A -n-v-temneratur~~ velr3inr?
n
CM
z e rri i r( i7 q
1) Volatile impuritien As P. (Drobably S) and potassium (an
r A 7
10 te ur
FAw, AYYOU-DD--
ACCESSIO.N NRz AP5005526-,
71
Card 313
BAwg4-k,M. --
Transcribing geographic names. Oeodo i kart. no.2t56-59 F 16,1,
(Names., Geographical) (MIRk 160)
BAKAYEV A.V,; GELLER, 1. D.; DORIL'j, V.A.; ZAKHAROV, M.P.;
FASLEDDVj D.N.;
SODDVIYEV, R.A.
Method for Investigating potential distribution in selenium
rectify1mg cello. Zav.lab. 27 no.10:1240-1242 161. (MIRA
14:10)
1. Leningradskiy politekhnicheskiy institut im. M. I'.
Kalinina.
(Selenium-Electric properties)
,c,0
5/139/63/000/001/012/027
7 _,E2o2/r420
AUTHORS:--- Gell or,, I.Xh. -Dorin,._V.A.,.Zakharov POM-
'a led6v,,D.N. Sol ov-1 yev, R*A.
s
TITLE Distribution- of,:-potential. in
-selenium rectifying
elements -between iol ectrodi.,s
PERIODICAL.
izvestiya vysshikh uchobiv
~kh zavedeniy. FizilEa,
no.1, 1963, 78-84
~;TCXT: Results of-measuring potential distribution in selenium
;.-'.--.'.,:,-rectil'ying-,elenients in ilia conducting direction are
described.
explain in detail the mechanism of potential distribution between
electrodes, measurements were carried out at points separated
of 511. Since the thickness of selenium layer varies.
'NO to 1001i it was,necessary to measure the potential.at 10 to
20 Poi-nts. Tn o rder to- ca:rry- out the measurements the layer..of
0-and-the --were-stripped and a--transverse__
thosewith p-n'-,
--prepared 116i ype's_-__-of_rdc ftie- --s _--l-ke,
t
d- - the- layer of so lenIum,
-junction - between the upper, L, ectrode, an,
unction 1 bet er o
and those in which the p-n j ies v;een the lay f
.,-selenium and the base, were investigated. The method was based on
Card 1/ 3.
S1135163100010 1012/027
Distribution -!of pot entia 1~ 6: E202)'Eh2O
,,....,measuring- the differenceof*potential -one of the electrodes~
between
t,.-anda probe the latter b e Jing placed at various points on the
-..surface of the transverse section of the elentent. A special
mstrument-incorporati obardness gauge of the diamond
ing -a micr
ty e in whichAhe latter was replaced by a steel wedge-
p
shaped probe was used. During measurements the probe was pressed
--i:into the selenium in order. to obtain reliable results. The width
Of the hb__Pr_W~was -1-,,5 to--2 ji - hence,-the
n 6~liaiion_ made
potential could be measu.-ed, at- points separated by a dfstance 0
Since the probe contact with selenium has a considerable resistancez
i f the order of 108 to 109 ohms, a high resistance voltmeter was
-d - ----- d--- - t t':ometer-wit~h~-a----
a en i
;:.;:..,_;!:,.,~ - - ___ po_,
Th'e
center zero.clectrometer sensitive to a current of 10-11
S'had an absolute e rror of 0.001 Vi
mea surement Considerable~care
The
taken inthe preparationof the transverse sections.
resul ts have shown that the main fraction of the potential Applied
the-element-3* -th conducting direction.falls over the p-n
n e
..,".-Junction-region, on the other hand the layer of selenium
accounts
"'.1; -for not more than: 251% of the above fall. Jn addition to
plotting
:fCard 2/3
RASTOIVUTYEVA; V. S.; BAKAYEEV, Ch. Kh.; Prt~wYKO, L. A.;
i6AYEN, M. l.; Ki~HiM-DVA' A. A.
"Tipy dvuyazyniya u ip-anskikh narodov Sovetskogo Soyuza."
report submitted for 7th Intl Cong, Anthropological &
Ethnological Sciences,
~bscow, 3-10 Aug 64.
9.3150, 24.2120 77839
SOV/57-30-3-5/15
AUTHORS:
Sinellnikov, K. D,,
Tolok, V. T... Nazarov, 14. 1.,
Balcayev,, 1. 1., Bondarev, V. A.,
Bugay, Yu. P.
TITLE:
Investigations of Ion Cyclotron Resonance in
a Dense
Plasma
PERIODICAL:
Zhurnal tekhnicheskoy fiziki, 1960, W1 30, Nr 3,
pp
283-288 (USSR)
ABSTRAM
The hp~ating up of plasma under ion cyclotron
reso-
nance, where the ions acquire directly the energy
of,the electric
field, is a process which one
could hope to utJlize for attaining
high-ionic
temperatures. Theory developed by Stix ee Sef).
1~
indicated that at plasma densities of 10
cm
and more, one could generate and thermalize so-
called ion cyclotron
waves. The authors, therefore,
investigated the ion
cyclotronl~esoy~.nce in
3
Card 1/ 11
hydrogen plasmas of density 10 -10 , cm
under
impulse conditions, using a device described on Fig.l..
Investigations of Ion Cyclotron Resonance 77830.
in a Danse Plasma S6V757730-3-5/15
0
DV
22
A r r 1~
A-A::
VAUM14 LLU
FV
Fig. 1.
Card 2/11 See caption on Card 3/11.
~Investigations of Ion Cyclotron Resonance 77839
in a Dense Plasma SOV757-30-3-5/15
Ca tion to Fig. 1. Diagram.of the experimental setup:
(1~ discharge tube; (2 triggering device; (3) triggering
scheme; (4) detector; W generator of 10 me; (6)
oscillograph ENO-1.
A straight discharge represents the source of the plasma
inside a 60-cm-long tube, 6 cm in diam. The discharge
was generated by means of 800 Usec square potential
Impulses. Discharge current could go up to 500 a
and was regulated by means of ballast resistance R
The discharge tube was along the axis of a 70-cm-long
solenoid, 20 cm in diam.,04ts magnetic field r ached
the maximum value up to oersted in 4.7-10-1 sec.
The coil was fed by means of a battery of condensers with
a maximum stored energy of 40,000 joules at potentials
UP to 5 kv. The uniformity of the magnetic field over
a length of 45 cm was not worse than 1%. Four sections
Card 3A1 Df three-turn each, connected In antiphase, served as
Investigations of Ion Cyclitron Resonance 77839
in a Dense Plasma SOV/57-30-3-5/15
the coil for introducing the high-frequency power
into the plasma. Axial periodicity of the electro-
magnetic wave was 11 cm. The inductivity (I 4H) of the
coil together with the C and C 0 capacitance constituted
a resonance cJrcuit with a Q-factor of 270, and was
driven by a 1 kw generator supplying a continuous range
of 6-12 me oscillations. Ion cyclotron resonance was
observed through the change in p)tential across the
resonant circuit which was transmitted through the
capacitance C to a -ermanium detector, and then to the
amplifier of the vei,tical deflections of the oscillograph
ENO-1. The triggering circuit enabled a buildup of the
discharge at all values of the magnetic field. Density
of the plasma was deduced by L. A. Dushin and V. I.
Konenko from the condition of transmission of millimeter
waves. Tests showed that the relation between the
resonant peak and the generator frequency folPws t~e
4/11 law Wci eH/me for piasma densities n < 10 cM_
Investigations of. 'ron Cyclotron Resonance 77839
in a Dense Plasma SOV/57-30-3-5/15
Figures 3 and 4 show that the optimum conditions
for absorption of the high frequency power by the
plasma are determined by the density of the neutral
and charged particles. Measurements of the half-widths
of the resonant cuvves show strong interactions be-
tween the accelerated Ions and neutral atoms.
10-
4 6 810 .20 40.
Card 5/11 Fig. 3. (caption on Card 6AJ)
Investigationo of Ion cyclotron Resonance 77839
in a Dense Plasma SOV/5t-30-3-5/15
Fig. 3. Pesonant absorption of h-f power versus
hydrogen pressure at constant discharge current.
The abscissa represents pressure in ~L Hg; the
ordinate shows amplitiide of resonant absorption in
velative units.
Card 6111
ISO J00
Fig. 4. Resonant absorption of h-f power versus
discharge current in hydrogen at 7.5 g H9 pressure.
The abscissa represents current in amperes; the
ordinate is same as on Fig. 3.
Investigations of Ion Cyclotron Resonance 77839
in a Dense Plasma SOV/57-30-3-5/15
Similar results were obtained by Dubova and others
(results to be published in Atomnaya energiya) at
FTI AN USSR (PTI AS UkrSSR) investigating the cyclotron
resonance under stationary conditions in a FIG
source of plasma, fed by means of a generator of a
few hundredths of a milliwatt. That work showed
also that the Coulomb collisions have little
influence on the consumption of energy by resonant
tons. The authors investigated also the relationship
between the power absorption and frequency, the
displacement of the resonant peak and the intensity
of the discharge current, and the relationship
between the resonant absorption of the Dower and
the tiiiie after the discharge current was cut off
(see Fig. 9). Since this time is related to the
density of the plasma, the curve testifies that
there exists an optimum, density of the plasma for
absorption of power.
Card 7/11
Investigations of Ion Cyclotron Resonance
In a Dense Plasma
0 Soo 1000
77839
SOV/57-~30-3-5/15
/.I SEC
Fig. 9. Resonant absorption of h-fL power versus
time after cutting off discharge current. Pressure
15 4 Hg; discharge current 250 a.
At densities higher than the optimum one., the authr)rs
suspect that.a kind of h-f field screening effect
of tht- plasma occurs. The authors also observed
that with the increase of plasma density, an
Card 8/ 11 asymmetry of the resonant absorption peak appears
'7 ~~ -.~ r-
Investigations of Ion Cyclotron 7. -.j J
in a Dense Plasma S CIV/5-1
Card 9/11
from the side of magnetic fields with a higher resonance
value, Their explain this asyTtimetry by an escape of a
part of the 'j h-f power~~nto t1he gen'e'ra't'ion of ionic
cyclotron waves described by Stix. A general
quantitative comparisoi~ .- th the theory cal-lijot be
attempted, however, sincE the experimenc does not
satisfy all the separate conditions of the theory.
The authors, nevertheless, compared some of the data.
The theory predicts a. maximum powerabsorption at an
on density of n = 2 to 11.1012 is III Tiile the ex-
periment yields a value of 4-10 cm . Similar results
are obtained discussing the asy-mmetry of the peak which
agree with the results on the stellarator V-65. The
authors, therefore, conclude that the h-f power
penetrates poorly into a plasma with densities above
5-10 12 cm-3. It is of paramount importanoe to confirm un-
equivocally, by experiment, the existence of ionic
cyclotron waves and the possibility of their -
thermalization. which in case of posItive answers
L
investigations of Ion Cyclotron Resonance 77839
in a Dense Plasma SOV/57-30-3-5/15
would makj 'It possib:1- to hrat plasmas with densities
above io S cm-3, The authors note that there also
the parameter
exIst other poosibilities ib" keeping
X3 nlose to 1, and so ach-*ev4n- Plasma
C
T
heating at higher plasma densities. Here X = length
of the period of the excitation coil;'T i = ion
temnerature. While the dependence on T i is quite
weak., a reduction of X by a half allows the increase
of density by one order of magnitude. In addition,
a. smaller x corresponds to a larger h-f' power
ab.,,orption W, since W-.,,I/ X2, The reduction of X
presantot, t1herefore, a very attractive possibility,
and the authors consider it a matter of expediency to
cond*jct supplementary investigation of this problem.
There are 9 figures; and 5 references, 2 Soviet,
Card 10/11 3 U.S. The U.S. reference's are, K. -q. W,
Champion,
Investigations of Ion Cyclotron Resonance 77839
in a Dense Plasma SOV/57-30-3-5/15
Proc. Phys. Soc., 7o, 446,B, 212, 1957;--T. N. Stix,
R. W. Palladino, Proc of 1958 Gen. Conf. A (15,
36o): T. F. Stix, Proc. of 1958 Gen. Conf. A
P 361).
ASSOCIATION: Physico-Technical InstituteAS UkrSSR, Khar1kov
(Fiziko-tekhnicheskiy institut AN USSR, Kharlkov)
SUBMITTED., October 22, 1959
Card 11/11
Balm, M.
Methods of calculating the vapor pressure of complex water
- salt zystems.
Izv, AN Knakh. SMSera khim. no.1;15-21 160. (MM 13 -- 11)
(Systems (Chemistry)) (Vapor pressure)
BAKAYEV, M,,T.., kandidat tokhnichaskikh nauk.
Theoret!cal principles in determiaing the dead
weight of a
scraper,, Izv. AN Kazakh. SSR Ser. gor. dels,
mo-3:24-27 151.
(scrapers) (MaA 9:6)
RkYAT,Ir A. Ch.,
1951
I li-I
-~,;-t Y, i/r , - ,, , .) -
HUSIN, A.Ch.; BAUYXV, M.T.; POKOKARIV, V.A,
OPwffVVWAWk,*&VM,:
Investigating physical. and mechanical properties of rocks
in
Dzhezkazgan ore deposits. Trudy Inst. gor. dela AN Xazakh.
SSR
2:137-157 157. (MIRA 10t12)
(Dzhezkazgan--Ore deposits) (Rocks--Testing)
BAKAM, M.T.; KULAKOV, A.Ya.
Supporting and control-ling the roofs of chambers in
DzhazkFtzgan
mines. Izv. AN Kazakh* SSR. Sero goro dela
no.1:105-108 158.
(MM 16 -.5)
(Dzhazkazgan District-44ine roof bolting)
-.. BAKAYAV. M.T.; DOLGIKFI, N.P.
-.U~
Appreximato estimate of red belting elements and their
position
in mine supports. lav. AN Kazakh. SSR. Ser. gor. dela.
no.1:36-41
159. (MIRA 12:9)
(Mine roof bolting)
MUSIX, A.Ch., doktor tekhn. nauk; B4ATV, Y.T.. kand. tekhn.
nauk
Measures for preventing breast caving. B820p. truda v prom.
3
no.11:14-15 N 159. (MIRA 13'3)
l.Chlen-korrespondent AD Kazakhskoy SSR (for Musin)
(Copper mines and mining-Safety weasnres)
j
4WEAM, M. T., MUSINA, R.M.
Method of rock testing,for shear (slip). Izv. AN
Kazakh. SSR. Ser.
gor dela no.UlOl--~ of (MIRA 13:10)
. (Rocks -!-Testing)
MUSIN, I.Ch.; BAKAYEV, M.T.
Roof caving in stome aress of Dzhazkasgan. Trudy
Inst. gor.
dela AN Kazakh.SSR. 4:3-20 160. (XIRA, 13:9)
(Dzhezkazgan--Mining engineering)
MUSIN, A.Ch.; BAKAYEV, M.T.
Parameters of the chamber and pillar system in
Dzhezl,-azgan
deposit mines. Trudy Inst. gor. dela AN Kazakh. SSR
7:49-60
16o. (KM 14- 6)
(Dzhezkazgan region--Mining engineering)~
MUSIN, A.C11. ~BMY~EV, T-; TAKELEKOV, K.Zh.
-& I
Centrifugal modeling in studying the stability of
chamber roofB
as applied to the conditions 1n Dzhezkazgan. Izv.
AN Kazakh.
SSR. Ser. gor. dela no.1:3-17 161. (I-MU;15:2)
(Dzhnzkaz an District-Rock ras=o)
=ng engineering~
BAKAYEIT, M.T.; BOCHY"V, B.N.
%-I
Efficiajit exploitation of JAninogorsk and
Zyryanovsk complex
metal deposits. Raved. i okh. nedr 27 no.5.,33-36
My 161.
- (141IRA 14- 9)
1. GoagortekhnRdzor Kazal~skoy SSR.
I (Kazikhstan--Mining engineering)
-- -1
MUSIN, Alikhan Chuzhebayevich,-.BAKAYEV, Maslud Tairovich;
OVSYANNIKOV.9
Petr Ivanovich; BASHLYKIN, I.I., Ave red.; SLAVORDSOV,
A.Kh.t
red. izd-va; LOMnINA, L.N., tekhn. red.;JAVRENTIYEVA.L.G.,
tekhn. rea.
[Using the microseismic method for studying the massif of
rocks)
Primenenie mikroseismicheskogo metoda dlia issledovaniia
mas-
siva gornykh porod. Moskva, Gosgortekhizdat., 1962. 61 p.
(MIRA 16:3)
(Microariams) (Roeks-Testing)
BAKAYEN 11 T * MGMAROV,, K.Kh.~ SEYDUALIM, Z.& g
IBPMM, SM.;
BKOVII O.K.; FUSIN, A.Ch., doktor te~hr.. nauh,
prof.,
red.; ABDRAKHMMOV, A., kand. filolog, nauk;
ASAINOV, M.p
red.; ANTIAMBAIABETOVA, S,, red.; ZHUKOVA, N.D.,
red.;
KHMAKO'V, A.G.v teklui. red.
[Russian-Y.Pzakh dictionary of
terir~inology3Ri.,.-,gk-razakhskiI
terininologJcheskii sloNarl. Alma-Ata, Izd--, :1
X-td. nauk
Kazakhskoi 0511. Vol. 2.2 (MbAng] Gornoe delo. 281
p.
( P .- 15: U.)
1. Akademiya nauk Ka7akhskoy SSR., Alma-Ata.
---!'Itut ya~w-
koznaniya.
(Mirdng engineering-Dictionarles
(Russian language.,.-Dictionaries--Kazalch)
BYUYRIN, A.~.,- BAKA)~V_)&T~j__~RWWV) T.M.; SALYKOV,
K.; YESHPAHOV, D.Ye.
Expediency of widening the panolis in the Dzhazkazgan
YAne.
Trudy Inst.gor.dela AN Nazakh.SSR 9:13-20 162. (MIRA
1538)
(Dyk-szkazgpn Dist-tot-Mining engginsering)
BAKAYEV M T - GUBINY V.I.
Evaluatiorr of methods of mining ore in the
Dzhezkazgan Mine.
Trudy Inst._gor. dela AN Kazakh. SSSR 10:67-74 163.
(KM 16:8)
(Dzhezkazgan District-Mining engineering)
BAKAYEV, H.T.; PETROV, A.A.
Seismic effect of imderground blasting in
Dzhezkazgan-mines.
Trudy Inst. gor. dela AN Kazakh. SSSR 10:137-142 f63.'
(MIRA 16:8)
(Dzhezkazg'an District-Blanting) (Seiamom,.-try)
BAKAYEV M
Prictice, of using soundings in metal mines. Trudy Ins';.
gor.
dels. AN Kazakh. SSSR 10t204-23.1 163. (MIRA 16s8)
(Rooks-Acoustic properties)
BAKAYEV. M.T.
Methodology of determining some parameters for a mining system
un,Jci; Lhe conditions found in the Dzhezkazgan Mine. Trudy Inst.
gor. dela AN Kazakh. SSR 11:42-47 163. (MMA 16t8)
(Dzliezkazgan DistrVAi-Mning engineering)
W-MY;1N, M.T.; ARlIkOV) AsIt
Fntcture tuctonier, of Dzhczkazgan mineral deposits
and stability
of blocks. Trudy Inst. gor. dela AN Kazakh.SSH
12:322-129 163.
(MIRA 17:8)
BAKAYEV, M,,T.; TLEUZHANOV, N.T,
Investigating the Influence of the borehole diameter
on the blast
affect in Dzheskazgan mines. Trudy Inst.gor,dela All
Mzakh.SSR
14:42-47 164. (MIRA 180.)
BAKAYEV, M.T.; GUBIN, V.I.; SAPARGALIYEV, M.S.
Using straight cuts before cbtlling with a
self-propelled
drilling rig. Trudy Inst. gor, dela AN Kazakh.SSR
12:22-29
163. (MIRA 17:8)
-.BAKAYEV, M.T.; TLEUZHANOV., N.T.
Investigating the effect of the distance between
blastholes
on the blast effect in the Dzhezkazgan mines. Trudy
Inst.
gor. dela AN Kazakh. SSR. 19:56-60 165. (MIRA 18:12)
t? 6 ~5 so5ow L?o
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or 40
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041
7
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p to '0007 t
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